An introduction to the use of microcomputers for design of industrial blueprints of
intermediate complexity. Sketching, lettering, orthographic projections, descriptive
geometry, point, line and basic geometric shapes. The use of menus, layers, fonts
and weights. Basic dimensioning, tolerancing and pictorial drawings. The student is
expected to draw a blueprint with simple dimensions label and notes using different
layers. (2 lecture hours, 2 lab hours)

MANUF 1104Technical Mechanics2
credit hours

Analysis and solution of practical problems in technical mechanics. Application of
basic calculations and standards for design and maintenance of mechanical systems.
(2 lecture hours)

MANUF 1110Metrology3
credit hours

Initial course in the science of precision measurement techniques. Basic and advanced
methodology behind measurement principles and tools used in the measurement process.
Emphasis on laboratory skills in dimensional measurement using micrometers, calipers
and gage blocks. Basics of geometric tolerancing and data analysis. Various applications
of measurement including the Coordinate Measuring Machine (CMM), roundness measurement,
and surface finish measurement. Additional topics include optical systems and quality
control methods, as well as calibration standards. (2 lecture hours, 2 lab hours)

The theory and use of plastics in industry. Physical, chemical and electrical properties
of plastics and testing criteria are discussed. Processes such as injection molding,
extrusion, blow molding, rotational molding, and thermoforming are covered. Control
factors affecting the quality of parts, applications, benefits and limitations of
plastics are explained. Related topics include process relationships, parameter setting
techniques, rapid changeover techniques, process control and troubleshooting. (3 lecture
hours)

Designed for students with little background in the use of metal-working machine tools.
Basic principles and operations on the engine lathe, vertical milling machine and
surface grinder. Precision measurement. (2 lecture hours, 2 lab hours)

MANUF 1153Advanced Machine Processes3
credit hours

The application of skills that are commonly known in the industry as "machine shop."
The development of operation skills of traditional engine lathes, vertical/horizontal
mills and grinding as well as operations on similar machines. Emphasis is on those
skills needed by trades persons who have achieved proficiency in the operation of
machines and related tooling and equipment. Quality skills related to machining and
some planning and job control skills related to machine work. Prerequisite: Manufacturing
Technology 1151 or equivalent or consent of instructor (2 lecture hours, 2 lab hours)

MANUF 1160Technical Static & Strength of Material4
credit hours

Basic analysis of external force systems acting upon bodies in equilibrium with subsequent
treatment of the stresses and strains induced. Laboratory projects involve the use
of nondestructive and destructive testing equipment to determine the various mechanical
properties of materials and their behavior under load. Not intended for engineering
students. Prerequisite: Physics 1201 or equivalent and Mathematics 1432 (or college
equivalent) or qualifying score on the mathematics placement test or qualifying A.C.T.
math score or consent of instructor (3 lecture hours, 2 lab hours)

MANUF 1180 (IAI IND 914)Quality Control3
credit hours

An introduction to quality control and the development of the concept of total quality
control engineering, process improvement, and quality information systems. A broad
overview of total quality control and its scope throughout the business organization
enables the student to analyze the various costs of quality and improve productivity.
Topics will include 100 percent inspection versus statistical inspection and process
control charts, as well as some of the tools of Organizational Development (OD) useful
in promoting a Total Quality Control (TQC) and Total Quality Management (TQM) environment
(3 lecture hours)

MANUF 1700Fundmntls of Plastics & Plastic Products3
credit hours

Fundamentals of plastics materials as they pertain to plastic products. Topics include
comparing and contrasting elastomers and plastics, and testing methods. Data sheet
analysis used to predict product characteristics. Prerequisite: Manufacturing Technology
1126 with a grade of D or better or equivalent (3 lecture hours)

MANUF 1820Selected Topics I1 to 10
credit hours

Introductory exploration and analysis of selected topics with a specific theme indicated
by course title listed in college course schedule. This course may be taken four times
for credit as long as different topics are selected. (1 to 6 lecture hours, 2 to 8
lab hours)

MANUF 1840Independent Study1 to 4
credit hours

Exploration and analysis of topics within the discipline to meet individual student-defined
course description, goals, objectives, topical outline and methods of evaluation in
coordination with and approved by the instructor. This course may be taken four times
for credit as long as different topics are selected. Prerequisite: Consent of instructor
is required (1 to 4 lecture hours)

MANUF 2200Production Technology4
credit hours

The theory of process planning and process control in manufacturing. Emphasis is on
the study of these concepts as they apply the manufacturing production process, safety,
quality and continuous improvement, and maintenance awareness. (4 lecture hours)

MANUF 2201Geometric Dimensioning and Tolerancing3
credit hours

Introduces the principles of industrial drafting as specified by the American National
Standards Institute (ANSI). Topics include part dimensional control techniques, interchangeability
of parts and the differences between traditional dimensioning and geometric dimensioning.
Symbols and terms for dimensioning, datum and materials condition symbols are introduced.
Various tolerances of form, profile orientation, run-out and location are demonstrated.
Feature control frames are discussed. Prerequisite: Manufacturing Technology 1101
or consent of instructor (3 lecture hours)

A survey of manufacturing methods and materials employed in cold working processes.
The student will understand the various methods of product fabrication and the manufacturing
processes for sound economic decision making in manufacturing and product design.
Other topics include the interrelationship among materials, their selection for use
in product design and processes, and conversion of these materials into finished components.
Prerequisite: Manufacturing Technology 2202 or consent of instructor (2 lecture hours,
2 lab hours)

MANUF 2206Mechanical Computr-Aided Drafting/Design3
credit hours

Computer-aided drafting/design (CADD) as drafting tool for the creation of mechanical
production drawings. Solids modeling concepts and application of geometric dimensioning
techniques are explained. The student is expected to finish detail and assembly drawings
from a layout and demonstrate an understanding of the principles of engineering and
design. Prerequisites: Manufacturing Technology 2201 or equivalent and Manufacturing
Technology 2202 or equivalent and consent of instructor (2 lecture hours, 2 lab hours)

Advanced course in creating multi-part parametric assemblies, exploded assemblies,
parts having complex surface features, and design of sheet metal parts in both a flattened
and bent state using parametric modeling software. Includes associated drawing files.
Prerequisite: Manufacturing Technology 2240 with a grade of D or better or equivalent,
or consent of instructor (2 lecture hours, 2 lab hours)

MANUF 2251Computer Numerical Control (CNC)3
credit hours

An introduction to CNC machinery as it applies to the operator and programmer. Introduction
to CNC programming coding, set-up, tooling, operation and troubleshooting. Basic principles
and applications of numerically controlled equipment and the set- up and operation
of CNC machines. Prerequisite: Manufacturing Technology 1151 or equivalent, or consent
of instructor (2 lecture hours, 2 lab hours)

MANUF 2253Computer-Aided Manufacturing (CAM)3
credit hours

Introduction to computer assisted part of programming (CAM) as it applies to computer
numerical control (CNC). Various types of programming systems. Piece part geometry
definition, computer input of this geometry, and post processing this information
into CNC code. This code is then used to machine parts. Familiarity with CAM software
and mathematical skills required. The student is expected to demonstrate a measurable
level of skill in geometry definition of the CAM system, post processor knowledge
to modify CNC code, and application of computer aided design (CAD) to generate CNC
code. Prerequisite: Manufacturing Technology 2251 or equivalent (2 lecture hours,
2 lab hours)

MANUF 2261Basic Die Making I4
credit hours

Fundamental theory and study of tool and die making, including punch press sizes and
feeds for dies, and their uses and relationships to each other. Prerequisite: Consent
of instructor is required (4 lecture hours)

An advanced class in mold making. Emphasis is on the use of side cores, various methods
of mold construction, fitting clearances, locking devices, and finishes required in
mold cavities. Prerequisite: Manufacturing Technology 2265 or equivalent, or consent
of instructor (4 lecture hours)

MANUF 2271Robotic Application3
credit hours

Industrial applications of robots with emphasis on set-up, programming and operations.
End effect or design and production line interfacing are studied. Prerequisite: Electro-Mechanical
Technology 1171 or equivalent (2 lecture hours, 2 lab hours)

MANUF 2272Advanced Die Making and Engineering I4
credit hours

An introduction to draw dies: the theory of the drawing of metal, metal reaction,
problems and solutions used, lubricants and draw die reductions along with advanced
work in gages, fixtures and intricate progressive dies. Prerequisite: Manufacturing
Technology 2262 or equivalent, or consent of instructor (4 lecture hours)

MANUF 2274Advanced Die Making and Engineering II4
credit hours

An advanced study of draw dies including types, materials used, lubricants, and the
theory of draw die reductions with a continuation of advanced work in gages, fixtures
and intricate progressive dies. Prerequisite: Manufacturing Technology 2272 or equivalent,
and consent of instructor (4 lecture hours)

Survey and analysis of current problems and trends in the design and supervision of
industrial accident prevention programs. (2 lecture hours)

MANUF 2281Cost Analysis2
credit hours

Study of the economic interdependency of the design, tooling, manufacturing, inspection
and testing decisions and the means of quantifying such decisions. Sources and controls
of direct, indirect and fixed costs. Influences of cost-accounting practices on engineering
decisions. Generating alternatives based on the principles of time and motion economics
and work simplification. Cost estimation procedures and controls. (2 lecture hours)

Course requires participation in Career and Technical Education work experience with
onsite supervision. Internship learning objectives are developed by student and faculty
member, with approval of employer, to provide appropriate work-based learning experiences.
Credit is earned by working a minimum of 75 clock hours per semester credit hour,
up to a maximum of four credits. Prerequisite: 2.0 cumulative grade point average;
12 semester credits earned in a related field of study; students work with Career
Services staff to obtain approval of the internship by the Associate Dean from the
academic discipline where the student is planning to earn credit.

MANUF 2865 Internship Advanced (Career & Tech Ed)1 to 4
credit hours

Continuation of Internship (Career and Technical Education). Course requires participation
in Career & Technical Education work experience with onsite supervision. Internship
learning objectives are developed by student and faculty member, with approval of
employer, to provide appropriate work-based learning experiences. Credit is earned
by working a minimum of 75 clock hours per semester credit hour, up to a maximum of
four credits. Prerequisite: 2.0 cumulative grade point average; 12 semester credits
earned in a related field of study; students work with Career Services staff to obtain
approval of the internship by the Associate Dean from the academic discipline where
the student is planning to earn credit.

College of DuPage Addison Center

College of DuPage Addison Center is located in the Technology Center of DuPage (TCD) on the east side of Swift Road, north of North Avenue and south of Army Trail Road. Swift Road is approximately 3/4 mile west of Route 53 or I-355.

College of DuPage Lisle location

The Lisle location is home to the College of DuPage Foundation, Center of Entrepreneurship and WorkNet Force. College of DuPage Lisle is located in the One Corporate Lakes building at the corner of Forbes and Cabot drives, just north of Warrenville Road.

College of DuPage Naperville Center

College of DuPage Naperville Center is located on the south side of Rickert Drive. Rickert Drive is accessed by turning north from 75th Street two miles west of Washington Street. From Route 59, travel east on 75th Street to Rickert Drive and turn north.

College of DuPage Westmont Center

College of DuPage Westmont Center is located on the west side of Pasquinelli Drive. Pasquinelli Drive is accessed by turning north from Ogden Avenue one block west of Route 83. The center entrance is immediately north of the bank.